161 research outputs found
Golgi localization and dynamics of hyaluronan binding protein 1 (HABP1/p32/C1QBP) during the cell cycle
Hyaluronan binding protein 1 (HABP1) is a negatively charged multifunctional mammalian protein with a unique structural fold. Despite the fact that HABP1 possesses mitochondrial localization signal, it has also been localized to other cellular compartments. Using indirect immunofluorescence, we examined the sub-cellular localization of HABP1 and its dynamics during mitosis. We wanted to determine whether it distributes in any distinctive manner after mitotic nuclear envelope disassembly or is dispersed randomly throughout the cell. Our results reveal the golgi localization of HABP1 and demonstrate its complete dispersion throughout the cell during mitosis. This distinctive distribution pattern of HABP1 during mitosis resembles its ligand hyaluronan, suggesting that in concert with each other the two molecules play critical roles in this dynamic process
Spectrum Sharing For Information Freshness: A Repeated Games Perspective
We consider selfish sources that send updates to a monitor over a shared
wireless access. The sources would like to minimize the age of their
information at the monitor. Our goal is to devise strategies that incentivize
such sources to use the shared spectrum cooperatively. Earlier work has modeled
such a setting using a non-cooperative one-shot game, played over a single
access slot, and has shown that under certain access settings the dominant
strategy of each source is to transmit in any slot, resulting in packet
collisions between the sources' transmissions and causing all of them to be
decoded in error at the monitor.
We capture the interaction of the sources over an infinitely many medium
access slots using infinitely repeated games. We investigate strategies that
enable cooperation resulting in an efficient use of the wireless access, while
disincentivizing any source from unilaterally deviating from the strategy.
Formally, we are interested in strategies that are a subgame perfect Nash
equilibrium (SPNE). We begin by investigating the properties of the one-stage
(slot) optimal and access-fair correlated strategies. We then consider their
many-slot variants, the age-fair and access-fair strategies, in the infinitely
repeated game model. We prove that the access-fair and age-fair strategies are
SPNEs for when collision slots are longer than successful transmission slots.
Otherwise, neither is a SPNE. We end with simulations that shed light on a
possible SPNE for the latter case.Comment: Accepted for publication in IEEE Global Communications Conference
(GLOBECOM) 202
Shuttling components of nuclear import machinery involved in nuclear translocation of steroid receptors exit nucleus via exportin-1/CRM-1* independent pathway
AbstractThe nucleocytoplasmic transport processes are mediated by soluble transport factors constantly navigating between nuclear and cytoplasmic compartments. Our understanding about nuclear export of general ‘nuclear import factors’ that deliver the cargo to the nucleus is still fragmentary. Utilizing green fluorescent protein tagged glucocorticoid receptor (GR) and relA as our working model and with judicious use of LMB, we show in living cells that all the soluble components of the nuclear import machinery exit nucleus via exportin1/CRM1 independent pathway(s)
Dissecting the Role of Critical Residues and Substrate Preference of a Fatty Acyl-CoA Synthetase (FadD13) of Mycobacterium tuberculosis
Newly emerging multi-drug resistant strains of Mycobacterium tuberculosis (M.tb) severely limit the treatment options for tuberculosis (TB); hence, new antitubercular drugs are urgently needed. The mymA operon is essential for the virulence and intracellular survival of M.tb and thus represents an attractive target for the development of new antitubercular drugs. This study is focused on the structure-function relationship of Fatty Acyl-CoA Synthetase (FadD13, Rv3089) belonging to the mymA operon. Eight site-directed mutants of FadD13 were designed, constructed and analyzed for the structural-functional integrity of the enzyme. The study revealed that mutation of Lys487 resulted in ∼95% loss of the activity thus demonstrating its crucial requirement for the enzymatic activity. Comparison of the kinetic parameters showed the residues Lys172 and Ala302 to be involved in the binding of ATP and Ser404 in the binding of CoenzymeA. The influence of mutations of the residues Val209 and Trp377 emphasized their importance in maintaining the structural integrity of FadD13. Besides, we show a synergistic influence of fatty acid and ATP binding on the conformation and rigidity of FadD13. FadD13 represents the first Fatty Acyl-CoA Synthetase to display biphasic kinetics for fatty acids. FadD13 exhibits a distinct preference for C26/C24 fatty acids, which in the light of earlier reported observations further substantiates the role of the mymA operon in remodeling the cell envelope of intracellular M.tb under acidic conditions. A three-dimensional model of FadD13 was generated; the docking of ATP to the active site verified its interaction with Lys172, Ala302 and Lys487 and corresponded well with the results of the mutational studies. Our study provides a significant understanding of the FadD13 protein including the identification of residues important for its activity as well as in the maintenance of structural integrity. We believe that the findings of this study will provide valuable inputs in the development of inhibitors against the mymA operon, an important target for the development of antitubercular drugs
Identifying the population of T-Tauri stars in Taurus: UV-optical synergy
With the third data release of the Gaia mission DR3 with its precise
photometry and astrometry, it is now possible to study the behaviour of stars
at a scale never seen before. In this paper, we developed new criteria to
identify T-Tauri stars (TTS) candidates using UV and optical CMDs by combining
the GALEX and Gaia surveys. We found 19 TTS candidates and 5 of them are newly
identified TTS in the Taurus Molecular Cloud (TMC), not catalogued before as
TMC members. For some of the TTS candidates, we also obtained optical spectra
from several Indian telescopes. We also present the analysis of the distance
and proper motion of young stars in the Taurus using data from DR3. We
found that the stars in Taurus show a bimodal distribution with distance,
having peaks at pc and pc. The
reason for this bimodality, we think, is due to the fact that different clouds
in the TMC region are at different distances. We further show that the two
populations have similar ages and proper motion distribution. Using the
DR3 colour-magnitude diagram, we show that the age of Taurus is consistent with
1 Myr.Comment: 13 pages, 10 figure
Pressure Impact on the Stability and Distortion of the Crystal Structure of CeScO3
[EN] The effects of high pressure on the crystal
structure of orthorhombic (Pnma) perovskite-type cerium
scandate were studied in situ under high pressure by means of
synchrotron X-ray powder diffraction, using a diamond-anvil
cell. We found that the perovskite-type crystal structure remains
stable up to 40 GPa, the highest pressure reached in the
experiments. The evolution of unit-cell parameters with pressure
indicated an anisotropic compression. The room-temperature
pressure¿volume equation of state (EOS) obtained from the
experiments indicated the EOS parameters V0 = 262.5(3) Ã…3
, B0
= 165(7) GPa, and B0¿ = 6.3(5). From the evolution of
microscopic structural parameters like bond distances and
coordination polyhedra of cerium and scandium, the macroscopic behavior of CeScO3 under compression was explained and
reasoned for its large pressure stability. The reported results are discussed in comparison with high-pressure results from otherThe authors are thankful for the financial support to this research from the Spanish Ministerio de Economia y Competitividad, the Spanish Research Agency, and the European Fund for Regional Development under Grant Nos. MAT2016-75S86-C4-1/2-P, MAT2013-46649-C4-1/2-P, and MAT2015-71070-REDC (MALTA Consolider). D.S.P. acknowledges the Spanish government for a Ramon y Cajal grant. The authors express gratitude to F. Aguado for fruitful discussions on the high-pressure behavior of perovskites. These experiments were performed at MSPD beamline at ALBA Synchrotron with the collaboration of ALBA staff.Errandonea, D.; Santamaria-Perez, D.; Martinez-Garcia, D.; Gomis, O.; Shukla, R.; Achary, SN.; Tyagi, AK.... (2017). Pressure Impact on the Stability and Distortion of the Crystal Structure of CeScO3. Inorganic Chemistry. 56(14):8363-8371. https://doi.org/10.1021/acs.inorgchem.7b01042S83638371561
Greater Skeletal Gains in Ovary Intact Rats at Maturity Are Achieved by Supplementing a Standardized Extract of Butea monosperma Stem Bark that Confers Better Bone Conserving Effect following Ovariectomy and Concurrent Treatment Withdrawal
With a longitudinally designed study, we tested whether an acetone soluble fraction (ASF) from the stem bark of Butea monosperma resulted in maximizing bone gain in rats during growth and maturation and thus protected against osteopenia following ovariectomy (OVx) with concomitant treatment withdrawal. Female rats at weaning were given ASF (100 mg/kg/d) or vehicle for 12 weeks, and baseline skeletal parameters (micro-CT) and total plasma antioxidant status (TAS) were measured. At this stage, one group was OVx and the other group was sham operated. Vehicle group (untreated) after OVx was given E2 or continued with vehicle (OVx control). ASF group after OVx was given vehicle (ASF withdrawn, ASFW). After another 12 weeks, all groups were killed and various skeletal parameters were determined. ASF resulted in substantially better skeletal parameters and higher plasma TAS over control at maturity. Rats treated with ASF before OVx had reduced rates of bone loss compared to OVx control. Twelve weeks after OVx, the ASFW group exhibited better trabecular microarchitectural preservation, bone turnover profiles, increased cortical deposition, and biomechanical strength over the OVx control, and the effects were comparable to OVx + E2 group. ASF supplementation during skeletal growth could maximize bone accrual and could confer increased resistance to postOVx osteopenia despite treatment withdrawal
Greater Skeletal Gains in Ovary Intact Rats at Maturity Are Achieved by Supplementing a Standardized Extract of Butea monosperma
With a longitudinally designed study, we tested whether an acetone soluble fraction (ASF) from the stem bark of Butea monosperma resulted in maximizing bone gain in rats during growth and maturation and thus protected against osteopenia following ovariectomy (OVx) with concomitant treatment withdrawal. Female rats at weaning were given ASF (100 mg/kg/d) or vehicle for 12 weeks, and baseline skeletal parameters (micro-CT) and total plasma antioxidant status (TAS) were measured. At this stage, one group was OVx and the other group was sham operated. Vehicle group (untreated) after OVx was given E2 or continued with vehicle (OVx control). ASF group after OVx was given vehicle (ASF withdrawn, ASFW). After another 12 weeks, all groups were killed and various skeletal parameters were determined. ASF resulted in substantially better skeletal parameters and higher plasma TAS over control at maturity. Rats treated with ASF before OVx had reduced rates of bone loss compared to OVx control. Twelve weeks after OVx, the ASFW group exhibited better trabecular microarchitectural preservation, bone turnover profiles, increased cortical deposition, and biomechanical strength over the OVx control, and the effects were comparable to OVx + E2 group. ASF supplementation during skeletal growth could maximize bone accrual and could confer increased resistance to post-OVx osteopenia despite treatment withdrawal
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